Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0025362 (mental retardation)
 15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Children with chronic metabolic acidosis should be investigated to determine the presence of an organic acid, especially when the plasma electrolyte profile shows a deficiency of anion. One of the organic acids that should be looked for in such a patient is lactic acid. Lactic acidosis due to tissue hypoxia is a well-known phenomenon (e.g., in shock and cardiopulmonary disease) and has not been discussed in this essay; nor has lactic acidosis due to exogenous causes like infusion of fructose or sorbitol, or admiministration of phenformin. Chronic lactic acidosis in infancy is a rare condition. It may be associated with glycogen storage disease Type 1, fructose diphosphatase deficiency, methylmalonic acidemia, propionic acidemia, pyruvate carboxylase or dehydrogenase deficiency and Leigh's subacute necrotizing encephalomyelopathy (SNE). Some patients with chronic lactic acidosis do not have nay of these diseases and comprise an "idiopathic" group. This is a heterogeneous group, probably having several different causes for the metabolic error. In Leigh's SNE, a metabolic block in the formation of thiamine triphosphate in brain has been demonstrated and has been attributed to the presence of an inhibitor of thiamine pyrophosphate-adenosine triphosphate (TPP-ATP) phosphoryl transferase in body fluids. The inhibitor has also been encountered in cases of intermittent cerebellar ataxia and of primary hypoventilation (Ondine's curse), which may represent variants of Leigh's disease. Increased blood levels of lactate, pyruvate and alanine frequently are encountered in SNE, but it still is not clear whether they are due to a primary or secondary disturbance in the catabolism of pyruvate. Disturbed lactate and pyruvate metabolism has also been encountered in isolated cases of mental retardation and growth failure, in mitochondrial myopathies and in polyneuropathies, and may be expected to occur in Wernicke's encephalopathy. Finally, it has been noted in malignancy and in association with other rare metabolic disorders.
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PMID:Lactic acidosis in childhood. 17 59

The purpose of the study was differential diagnosis of lactic acidosis in 44 children aged from 2 weeks to 4 years. In all of them the lactate level in repeated determinations exceeded 27 mg/100 ml. From the point of view of clinical manifestations the children were divided into three groups: 26 with hepatomegaly and hypoglycaemia (I), 6 with ataxia and retardation of somatic development (II), 12 with mental retardation and muscular hypotonia (III). Together with basic biochemical studies other tests were done, if necessary, including glucose and alanine loading, lactate determination in cerebrospinal fluid, analysis of urinary organic acids by the GC-MS method, morphological examinations of muscle biopsy material, enzymatic determinations in liver biopsy material. In group I glycogenosis was suspected and its type was finally established after biochemical and enzymatic tests (types I, Ib, III, VI, VIa, XI). In one case fructose-1,6-diphosphatase deficiency was suspected. In group II the clinical manifestations resembled Leigh's syndrome. The tests demonstrated an inhibition of glucose formation from alanine, and lactate level in the cerebrospinal fluid was evidently raised above that in the serum. Gasometric index showed the presence of respiratory alkalosis with metabolic compensation rather than primary lactate acidosis. In group III, with considerable clinical variety of signs, in only nine out of 12 children the cause of lactate acidosis could have been established (pathological changes of mitochondria in 4 cases, secondary increase of lactate without pathogenetic importance in 4, and 3-hydroxy-3-methylglutaric acidosis in 1 case. In conclusion it is thought that this combination of diagnostic methods is useful in differential diagnosis of congenital lactate acidosis in children.
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PMID:Congenital lactic acidosis in children--differential diagnosis in 44 cases. 184 18

Since the original description 26 years ago, of the hepatic glycogen synthetase deficiency, only one more case was reported in 1977. We present the studies carried out on an Argentine boy of Italian ancestry who at age 21 months, showed signs of hepatic deficiency with mild clinical symptoms which contrasted with a remarkable fatty liver degeneration. A totally atypic reaction to fructose overload (Table 1, Fig. 1) was the first key to the diagnosis. Glucose levels were not significantly modified by glucagon after 12-hours fasting, but it did increase the glycemia, with decrease of lactate and alanine 3 hours after-meal (Fig. 2a, b). The 24-hours metabolic profile showed fasting hypoglycemia, hyperketonemia, low alanine concentrations and mild lactatemia and hyperglycemia and a net post-prandial increase of lactate (Fig. 3). This profile when reduced to 14 hours, 12-fasting hours and 2-postprandial hours (Fig. 4), revealed similar alterations in an asymptomatic younger brother. The development of the investigation led to a second hepatic biopsy which confirmed hepatic steatosis and to an ultrastructural study, which showed subcellular alterations in the liver and also in muscle (Fig. 5). Moreover low content of hepatic glycogen was observed along with glycogen synthetase activity between 20-25% that of controls, being normal the enzyme activity in muscle and fibroblasts cultured from a skin biopsy (Table 2). The clinical pattern mainly without hypoglycemia, convulsions and/or mental retardation and a normal height and body mass development, allowed us to postulate that this Argentine report would be a mild variant of the disease formerly described and would be correlated with a partial deficiency of the hepatic glycogen synthetase.
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PMID:[Hepatic glycogen synthetase deficiency or glycogen storage disease-zero. Mild phenotype with partial enzymatic defect]. 213 Feb 23

To clarify the effects of perinatal anoxia on the subsequent amino acid metabolism in the brain of children, free amino acid levels in the cerebrospinal fluid (CSF) were determined in 15 children diagnosed as having cerebral palsy and/or mental retardation with perinatal anoxia, and 58 control children without anoxia, aged from 4 days to 12 yrs. There was no significant difference in total amino acid levels between anoxic children and the controls. In the controls, the Gln level in CSF was high, Arg, Asp and Glu levels in CSF were almost the same during infancy and childhood, and the levels of Orn, Lys, His, Tau, Thr, Ser, Asn, Gly, Ala, Val, Met, Ile, Leu, Tyr and Phe in CSF decreased with age until pre-school age. In the newborns and infants among the anoxic children, the levels of most free amino acids in CSF were relatively high compared with those of the controls and, except Glu and Gln, decreased with age during infancy. The Orn, His, Gly, Tyr and Phe levels in CSF of anoxic children were lower than those of the controls in older infants. These results suggest that perinatal anoxia affected free amino acid patterns in CSF of newborns and infants and that the subsequent disturbance of amino acid metabolism in their brains remained after birth.
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PMID:The effect of perinatal anoxia on amino acid metabolism in the developing brain. Part II: The effect of perinatal anoxia on the free amino acid patterns in CSF of infants and children. 406 76

Congenital deficiencies of the urea cycle enzyme ornithine transcarbamylase (OTC) result in chronic hyperammonemia and severe neurological dysfunction including seizures and mental retardation. As part of a series of studies to elucidate the pathophysiologic mechanisms responsible for the CNS consequences of OTC deficiency, concentrations of ammonia-related and neurotransmitter amino acids were measured as their o-phthalaldehyde derivatives using high performance liquid chromatography with fluorescence detection in regions of the brains of sparse-fur (spf) mice, a mutant with an X-linked inherited defect of OTC. Compared to CD-1/Y controls, the brains of spf/Y mutant mice contained significant alterations of several amino acids. A generalized, up to 2-fold, increase of brain glutamine was observed, consistent with the exposure of these brains to increased concentrations of ammonia. Significant increases of brain alanine were also observed and, together with previous reports of increased concentrations of alpha-ketoglutarate, are consistent with ammonia-induced inhibition of alpha-ketoglutarate dehydrogenase in the brains of spf/Y mice. Increased brain content of the excitatory amino acid aspartate could be responsible for the seizures frequently encountered in congenital OTC deficiency.
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PMID:Regional amino acid neurotransmitter changes in brains of spf/Y mice with congenital ornithine transcarbamylase deficiency. 791 68

A patient in Kurobe, Japan, was previously reported to have a new class of hereditary methemoglobinemia, type III. In this patient, NADH cytochrome b5 reductase deficiency was observed in lymphocytes and platelets as well as in erythrocytes, but this was not associated with mental retardation. A base change was identified in the gene for NADH cytochrome b5 reductase, causing an amino acid substitution from Leu-148 to Pro. In the present study, the mutant enzyme (Leu-148-->Pro) was expressed in Escherichia coli, purified, and characterized. The mutant enzyme retained about 60% of the catalytic activity of the wild type, but was remarkably heat unstable. By incubating the mutant enzyme at 42 degrees C for 10 minutes, 80% of the enzyme activity was lost, whereas the wild-type enzyme lost < 20% activity after incubation at 50 degrees C for 30 minutes. Another mutant in which Leu-148 was replaced by Ala was prepared to establish the role of the residue. This mutant was apparently less heat stable than the wild type, implying a structural role for Leu-148. Reinvestigation of the enzyme activity in the blood cells and fibroblasts of the type III Kurobe patient, revealed that about 40% of the normal activity was detected in these cells, in contrast to the previous report. Thus, this patient reported previously as having hereditary meth-hemoglobinemia type III was shown to have type I.
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PMID:Analysis of mutant NADH-cytochrome b5 reductase: apparent "type III" methemoglobinemia can be explained as type I with an unstable reductase. 842 71

Classical galactosaemia, deficiency of galactose-1-phosphate uridyltransferase (GALT), is characterized by acute symptoms of hepatomegaly, jaundice, sepsis, cataracts and growth retardation. Treatment with dietary galactose restriction corrects these complications immediately; however, most of these children develop long-term complications of verbal dyspraxia, mental retardation and ovarian failure. Our previous molecular study showed that the most common mutation of the GALT gene is a missense mutation of Q188R (replacement of glutamine-188 by arginine) in approximately 60-65% of the German galactosaemic population. The coding region of GALT was amplified by the polymerase chain reaction from genomic DNA of classical galactosaemic individuals, who are negative or heterozygous for Q188R, and was further characterized by direct sequencing. Three new disease-causing mutations, two missense and a stop codon mutation, were identified in three patients from two families with mild galactosaemic variants: firstly R67C, replacement of arginine-67 by cysteine and W316X, the stop codon at tryptophan-316 in one male; secondly A330V, replacement of alanine-330 by valine in two female siblings. In the first family the patient was also heterozygous for the polymorphism N314D and in the second family both girls were compound heterozygotes for Q188R and A330V. All three galactosaemic individuals have a considerable amount of the residual GALT activity in RBC and the galactose-1-phosphate (GALP) level decreased much faster on treatment than that of other galactosaemic patients with missense mutations such as Q188R. The clinical and biochemical data of these patients were much more favourable in comparison with those of two female galactosaemic individuals, one homozygous for L195P and the other compound heterozygous for Q188R and L195P. These three missense mutations (R67C, L195P and A330V) also occur in highly conserved regions. These observations suggest that the phenotypic variation in galactosaemic individuals may be due to different molecular aetiologies.
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PMID:Mutations in the galactose-1-phosphate uridyltransferase gene of two families with mild galactosaemia variants. 859 37

Pyruvate carboxylase (PC) is a biotinylated mitochondrial enzyme that catalyzes the conversion of pyruvate to oxaloacetate. Children with inborn errors of PC metabolism have lactic acidosis, hypoglycemia, and mental retardation. The variable severity of the clinical phenotype is dependent on both genetic and environmental factors. Two consanguineous families with moderate forms of PC deficiency were characterized at the biochemical and molecular levels. In both families, the probands were found to have low PC activity (range, 2-25% of control) in blood lymphocytes and skin fibroblasts associated with either diminished or normal protein levels. In the first case, sequencing of patient-specific PC cDNA demonstrated a T to C substitution at nucleotide 434, which causes a valine to alanine change at amino acid residue 145. Direct sequencing of the parents showed that they are heterozygous for this mutation. In the second family, a brother and sister had mental retardation and episodes of severe lactic/ketoacidosis in early childhood. In these cases, a C to T substitution at nucleotide 1351 results in a cysteine for arginine substitution at amino acid residue 451; the parents were also found to be heterozygous for this mutation. In both families, no other mutations were found, and both substitutions occurred in relatively conserved amino acid residues. These mutations, located in the biotin carboxylase domain, provide a unique opportunity to analyze how natural occurring mutations affect PC function.
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PMID:Molecular characterization of pyruvate carboxylase deficiency in two consanguineous families. 958 2

ZNF179, a RING finger protein encoding gene, has been mapped within the critical deletion region for Smith-Magenis syndrome (SMS), a disorder characterized by mental retardation and multiple congenital anomalies associated with del(17)(p11.2). Here we report the cloning of Znf179, the mouse homologue of ZNF179, and characterization of its gene structure. The 3028-bp cDNA has a 1.9-kb open reading frame that contains a RING finger domain at its N-terminus and an alanine-rich and glycine-rich domain at its C-terminus. Znf179 genomic sequence includes 15 introns and spans about 10 kb on mouse chromosome 11, which maintains conserved synteny with human 17p. Northern analysis indicates that Znf179 is predominantly expressed in brain and testis. Although contained within the SMS common deletion interval, FISH experiments show that ZNF179 is not deleted in two SMS patients with smaller deletions.
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PMID:Cloning, genomic structure, and expression of mouse ring finger protein gene Znf179. 961 24

The oculocerebrorenal syndrome of Lowe (OCRL) is an X-linked multisystem disorder with major abnormalities of eyes, nervous system, and kidneys. Clinical manifestations include congenital cataract, mental retardation, and renal tubular dysfunction. A gene (OCRL1) responsible for OCRL was identified by positional cloning and its product OCRL-1 protein was shown to be a phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P2] 5-phosphatase localized to the Golgi apparatus. We describe three mutations in OCRL1, one in a patient with severe phenotype and two in patients with moderate phenotype (degree of mental retardation and musculoskeletal abnormalities). The patient with severe phenotype had a G-to-A transition at nucleotide (nt) 1,739, causing an Arg-to-Gln substitution at amino acid 577, and one patient with moderate phenotype had a C-to-G transversion at nt 1,812, leading to a His-to-Gln substitution at amino acid 601. Both Arg-577 and His-601 are encoded by exon 15 and are probably important for proper function of this protein, since these are conserved in various enzymes catalyzing dephosphorylation of inositol compounds. In the other patient with the moderate phenotype, there was a G-to-A transition at nt 2,797 located at the 3'-end of exon 22. This substitution led to a skip of the same exon as well as conversion of codon-930 from GCT (Ala) to ACT (Thr) in the normal-size transcript. When we measured the enzyme activity in skin fibroblasts from the three patients, the activity was less than 10%, compared to findings in normal controls. Western blot analysis showed absence or severe decrease in OCRL-1 protein in cell lysates derived from these patients.
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PMID:Oculocerebrorenal syndrome of Lowe: three mutations in the OCRL1 gene derived from three patients with different phenotypes. 963 63


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